2013
... a) Explain the h-parameter model of a transistor at low frequencies and derive the formulae for current gain, input impedance, voltage gain and output impedance. b) Derive the expressions for current gain, input impedance, output impedance and voltage gain of a CC amplifier with the help of approxim ...
... a) Explain the h-parameter model of a transistor at low frequencies and derive the formulae for current gain, input impedance, voltage gain and output impedance. b) Derive the expressions for current gain, input impedance, output impedance and voltage gain of a CC amplifier with the help of approxim ...
1 Analog Electronics
... primarily interested in the information carried by the signal or voltage they output. Most signal sources output relatively low-level voltages, which in turn need to be conditioned to be of use to the system they are connected to. It is important therefore to understand the limitation of signal sour ...
... primarily interested in the information carried by the signal or voltage they output. Most signal sources output relatively low-level voltages, which in turn need to be conditioned to be of use to the system they are connected to. It is important therefore to understand the limitation of signal sour ...
Intro to digital circuit
... dominant role in digital technology. • The goal is to introduce and provide an understanding of how these circuits work, how they are represented in mathematical notation, and how they are designed using modern automated design technique Sahar Mosleh ...
... dominant role in digital technology. • The goal is to introduce and provide an understanding of how these circuits work, how they are represented in mathematical notation, and how they are designed using modern automated design technique Sahar Mosleh ...
Evaluates: MAX1744/MAX1745 MAX1744 Evaluation Kit General Description Features
... To generate output voltages other than 3.3V or 5V, replace the MAX1744 with the MAX1745 (adjustable output), and select the external voltage-divider resistors, R2 and R3. The MAX1745 allows the output voltage to be set from 1.25V to 18V. The only other modification required is to remove the shunt fr ...
... To generate output voltages other than 3.3V or 5V, replace the MAX1744 with the MAX1745 (adjustable output), and select the external voltage-divider resistors, R2 and R3. The MAX1745 allows the output voltage to be set from 1.25V to 18V. The only other modification required is to remove the shunt fr ...
Supplementary Information
... All the operational amplifiers in Supplementary Figure S2 are AD712JN. The figure is one third of the whole 30 electrodes circuit. Ten electrodes input through the resistors R1 - R10 (A). The first (B) and second (C) columns from the left of operational amplifiers are the voltage follower. The third ...
... All the operational amplifiers in Supplementary Figure S2 are AD712JN. The figure is one third of the whole 30 electrodes circuit. Ten electrodes input through the resistors R1 - R10 (A). The first (B) and second (C) columns from the left of operational amplifiers are the voltage follower. The third ...
Low Noise Amplifier 1.7 - 2.0 GHz MAAM12032 SO-8
... 1. See following pages for 3-volt data. Specifications Subject to Change Without Notice. ...
... 1. See following pages for 3-volt data. Specifications Subject to Change Without Notice. ...
sample questions - Department of Electrical Engineering, IIT
... 1. A 3-phase, 415V, 6-pole, 50Hz. Star-connected synchronous motor has an emf of 520V(Line to line). The stator winding has a synchronous reactance of 2 per phase and the motor develops a torque of 100 Nm. The motor is operating from a 415V, 50Hz bus, (i) Calculate the current drawn from the supply ...
... 1. A 3-phase, 415V, 6-pole, 50Hz. Star-connected synchronous motor has an emf of 520V(Line to line). The stator winding has a synchronous reactance of 2 per phase and the motor develops a torque of 100 Nm. The motor is operating from a 415V, 50Hz bus, (i) Calculate the current drawn from the supply ...
Laboratory Exercise Basic Electrical Calculations and
... expected voltage drops across each resistor. VR1 (calculated) = I x R1 = _______________ VR2 (calculated) = I x R2 = _______________ VR2 (calculated) = I x R3 = _______________ Connect the DMM in parallel with each of the three resistors as a voltmeter and measure the voltage drops. Record your resu ...
... expected voltage drops across each resistor. VR1 (calculated) = I x R1 = _______________ VR2 (calculated) = I x R2 = _______________ VR2 (calculated) = I x R3 = _______________ Connect the DMM in parallel with each of the three resistors as a voltmeter and measure the voltage drops. Record your resu ...
Dec 2001 Reduce Power Consumption of DSL Modems with the LT1969 Line Driver
... Two control pins (pins 6 and 7) are available on the LT1969 to set the operating current of the driver (Figure 1). Both of these pins are biased internally to approximately 1VDC above the V– supply rail (pin 5). Resistors connected between these two pins and V– set the driver stage operating current ...
... Two control pins (pins 6 and 7) are available on the LT1969 to set the operating current of the driver (Figure 1). Both of these pins are biased internally to approximately 1VDC above the V– supply rail (pin 5). Resistors connected between these two pins and V– set the driver stage operating current ...
